Saturday, February 6, 2016

GIMMEL IS MORE IMPORTANT THAN THE HIGGS BOSON

THE NEW SCIENCE: PRACTICAL
APPLICATIONS OF TRUE ANALYSIS AND THE 3rd FORM OF REALITY

In the previous post I
talked about the discovery of gimmel, the third form of reality that is neither
matter nor energy. In this post, I expand on the significance of the finding of
gimmel.

I submit to you that the discovery of gimmel is far more
important than the discovery of evidence of the Higgs boson and the
accompanying Higgs Field, because understanding the reality of gimmel has
practical application to human problems. So far as I can tell,
the discovery of the Higgs boson has no practical application.

All the discovery of
traces of the Higgs boson does
is confirm the consistency of the current particle theory. Finding the Higgs
boson simply confirms the mathematical consistency of particle theory, it doesn’t
reveal anything new about reality. So far as I can tell, the discovery has no
practical application.

Just what is the Higgs
boson? Particle physicists explain it like this:

"All
elementary particles get their masses from their interactions with the Higgs
field, kind of like being 'slowed down' by passing through a thick syrup,"
a physicist at Towson University in Maryland says.

Some particles have a harder time moving
through the Higgs field than others, and as a result, they have more mass. Why are
certain particles, like the top quark, given thousands of times more mass by
the Higgs field than less massive particles, like as electrons and neutrinos?
No one knows. "Theorists have been searching for some way to actually
predict masses from first principles. No convincing theory has yet
emerged," said John Gunion, a professor of physics at the University of
California, Davis.

Particle
physicists think that, similar to the way photons are related to the electromagnetic
field, the Higgs particle may be related to a Higgs field. They theorize that particles
moving through the Higgs field disrupt the field by exchanging virtual Higgs
particles with it. They postulate that a detectable Higgs particle surfaces
when the field is disturbed by the impact of a moving particle. Detecting a Higgs
boson is how physicists feel they can be sure the Higgs field exists. "You
have to get enough energy to excite the field so that it looks like a particle
to us. Otherwise we don't know the field is there," particle physicist Craig
Blocker of Brandeis University tells us.

The discovery of gimmel tells us much more: It explains quantum
physics in a much more comprehensive way: Stable particles cannot exist without
gimmel, which means that, consistent with quantum experimental observations like
the double-slit and delayed-choice experiments, particles do not exist until we
consciously draw the distinctions that allow us to measure them.

Just what is gimmel? Unlike the Higgs
boson, gimmel is not just another name for something we already know about, Gimmel
is what mass-less gluons, bosons and dark matter/energy are made of. Gimmel is
the essence of life and the flow of purpose and meaning from the infinite to
the finite. Gimmel is most abundant in the elements that support life. See the
tables of calculations in the series of posts on ‘Putting Consciousness into
the Equations’, especially Parts 18 and 20.

The discovery of gimmel
in every stable particle making up the physical universe tells us much more
than why particles have mass, it opens the door to a deeper understanding of
space and time in relation to mass and energy.

Einstein was on the
right track when he observed in a note to the fifteenth edition of his book on
relativity that space is not something to which one can ascribe a separate existence
apart from the objects of physical reality. With the discovery of gimmel, quantum
physics is telling us something profound about both space and time: They do not
exist as separate ‘things’.

The images conjured up from quantum sensations in our brains of objects
and their motions are inseparably bound up with consciousness. Without the
direct involvement of consciousness as TRUE units of gimmel, there would be no
matter and energy interacting in space-time, in fact, no material universe!

With the discovery of
gimmel, we echo the statements of Planck and Einstein: “There is no matter as
such”, and “There is no space as such”, and expand them:

There is no matter and
energy, no space and time, without consciousness. In up-coming posts, I will
explain what space and time are in the new paradigm.